Elastic waves in fluid-conveying carbon nanotubes under magneto-hygro-mechanical loads via a two-phase local/nonlocal mixture model
作者: M R Farajpour , A R Shahidi , A Farajpour
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摘要: The nonlocal elasticity has been widely utilized for carbon nanotubes in its differential form. However, recently, it indicated that using the integral form of this size-dependent theory yields more accurate and reliable results. In paper, an with two distinct phases is used to analyze wave propagations conveying nanofluid. nanotube subjected a magneto-hygro-mechanical loading. Furthermore, surrounded by two-parameter polymer matrix. To incorporate slip effects between fluid tube at nanoscales, correction factor employed on basis Beskok-Karniadakis model. propagation nanofluid examined incorporating influences various parameters such as phase fractions, magnetic strength, initial stress Knudsen number. Comparing present results those molecular dynamics simulations, shown limitation high numbers overcome two-phase
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